AU727437B2 - Clamp arrangement for clamping a hose fast on a pipe portion - Google Patents

Description

S F Ref: 423046

AUSTRALIA

PATENTS ACT 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT

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ORIGINAL

Name and Address of Applicant: Actual Inventor(s): Address for Service: Invention Title: Rasmussen GmbH Edisonstrasse 4 D-63477 Maintal

GERMANY

Jurgen Gyongyosi Herrn Spruson Ferguson, Patent Attorneys Level 33 St Martins Tower, 31 Market Street Sydney, New South Wales, 2000, Australia Clamp Arrangement for Clamping a Hose Fast on a Pipe Portion The following statement is a full description of this invention, including the best method of performing it known to me/us:- 5845 RA 234A RASMUSSEN GMBH Clamp arrangement for clamping a hose fast on a pipe portion The invention relates to a clamp arrangement for clamping a hose fast on a pipe portion, comprising a clamp having a clamp band and a spring ring which is fixed with a first portion to the clamp and which elastically clamps the hose when the clamp is initially fitted on the hose but is not yet clamped fast.

In a commercially available clamp arrangement of that kind having a worm drive clamp in which a tightening screw engages into a housing fixed to the clamp band, a spring ring of plastics material is fixed to the housing by a substantially semicircular portion which is provided at the one end of the spring ring and which surrounds the housing on the outside thereof. The remaining portion of the spring ring comprises two *parallel arcuate limbs which surround the hose axially beside the clamp band in the initially assembled condition and elastically clamp it in place. That spring ring is expensive, bulky and unwieldy and is only 15 suitable for worm drive clamps.

The object of the present invention is to provide a clamp arrangement of the kind set forth in the opening part of this specification, in which the spring ring is less bulky.

In accordance with the invention that object is attained in that at least the second portion of the spring ring at least predominantly lies within the clamp.

In that case at least the second portion of the spring ring does not project axially, or does not project axially to a substantial extent, beyond the clamp. It therefore takes up less space and is less bulky. A further advantage is that, after the initial fitting operation, while the clamp is clamping the hose, the clamp can slide on the radially outward side of the second portion of the spring ring, better than on the outside of the hose, so that the tightening force of the clamp when the hose is clamped fast on the pipe portion is more uniformly distributed over the periphery of the hose and also clamps it c*fast in position with a higher force. If the spring ring lies entirely within the clamp it takes up even less space and is even less bulky Preferably the spring ring comprises spring steel. With that construction it can produce a higher clamping force than a spring ring comprising plastics material. In the initially fitted condition, when it is not yet clamped fast, the clamp is then more firmly seated on the hose.

If the spring ring comprises spring steel plate, it is flat and accordingly compactly disposed between the clamp arrangement and the hose.

The axial width at least of the second portion of the spring ring should be at most equal to the width of the clamp band in order for it to be of such a design configuration that it takes up a small amount of space and is less bulky.

It is also desirable if the spring ring has edges which are raised radially outwardly at least over a part of its periphery length, which .edges receive the clamp band. between them. If the raised edges are at a spacing from each other which just corresponds to the width of the clamp band, only the raised edges project on both sides beyond the clamp band 25 by an amount which approximately corresponds to the thickness of the spring ring material. The raised edges stiffen the spring ring so that it can be made from thinner material. In addition the raised edges can serve as a guide means for the clamp band. Finally the outer edge of the spring ring can be rounded off in order to spare the hose.

In particular the raised edges can be formed by bent-over plate portions. The bending-over procedure at the same time affords the desired rounded configuration.

Preferably the first portion is connected to the clamp in positively locking relationship or by intimate joining of the materials involved. The connection afforded by intimate joining of the materials involved can be made for example by welding or glueing. The connection involving positively locking relationship can be made for example by riveting or by bending around the clamp, band or by lugs which are partially stamped out of the spring steel plate and engage. Into holes in the clamp band and are bent around the edges of the holes.

If the spring ring is fixed to the clamp band it is suitable for the most widely varying kinds of clamps having a clamp band.

It can then be provided that a radially acting spring means is disposed between the first portion whose ends which are away from each other in the peripheral direction of the clamp are connected to the clamp band in positively locking relationship and displaceably in the peripheral direction, and the inside of the clamp band. In that arrangement the spring ring additionally provides for holding the spring means which in turn provides for tightening up the clamp or relaxing the clamp, if the hose diameter varies as a result of changes in temperature.

If the spring ring has ends which are movable relative to each other in the peripheral direction, for example like an axially slotted spring ring, It can be produced in a simple fashion from a flat, possibly also smooth material.

In that case the ends of the spring ring may overlap each other, disposed in the peripheral plane thereof, so that the spring ring bears against the hose over the entire periphery thereof.

The invention and developments thereof are described in greater detail hereinafter with reference to the accompanying drawings of preferred embodiments in which: Figure 1 is a perspective view of a clamp arrangement according to the invention in the form of a spring band clamp with an internally fixed spring ring, Figure 2 shows a perspective view of the clamp arrangement of Figure 1 in the initially fitted condition on a hose, Figure 3 shows a further embodiment of a clamp arrangement according to the invention in the form of a hose clamp with an elastic and hookable closure with a spring ring fixed within the clamp, Figure 4 shows a clamp corresponding to the clamp illustrated in Figure 3 with an internally fixed spring ring whose ends engage into each other, Figure 5 shows a clamp arrangement according to the invention in the form of a worm drive clamp with a spring ring which is disposed on the inside of the clamp band and which at the same time holds between itself and the clamp band a spring means for compensating for thermally induced variations in diameter of the hose, and 1 Figure 6 shows a further embodiment of a clamp arrangement according to the invention in which the spring ring has raised edges.

The clamp arrangement shown in Figures 1 and 2 includes a socalled spring band clamp of spring steel and serves as a hose clamp for clamping fast a hose 1. preferably a cooling water or petrol hose in a 0: motor vehicle, on a pipe or tube portion, for example a pipe connecting member.

The spring band clamp comprises a clamp band 10 of spring steel or 000spring steel plate, which is curved in an annular configuration, having a first end portion 11 and a second end portion 12. At its end the first ooso S end portion 11 has a radially outwardly bent spreading jaw 13 and the 25 second end portion 12 has a curved spreading jaw 14 which is also directed radially outwardly. The spreading jaws 13 and 14 serve to open the spring band clamp from an unstressed or substantially unstressed condition in which the diameter is smaller than in the opened condition shown in Figures 1 and 2.

Behind the spreading jaw 13 in the closing direction of the first end portion 11, as is indicated by an arrow 15, the first end portion 11 has a tongue 17 which is pressed out of a U-shaped incision 16 and which extends in the closing direction 15 of the end portion 11 and inclinedly radially outwardly at an acute angle with respect to the tangential direction of the spring band clamp. The free end of the tongue 17 has an end face which is perpendicular to the tongue 17 and whose radially inward edge forms an abutment means 18 which bears against an abutment surface 19 near the free end of the spreading jaw 14, under the closing spring force component of the clamp band 10, which component Is directed in the peripheral direction The second end portion 12 exerts the same closing spring force component in the opposite peripheral direction, as indicated by an arrow The abutment surface 19 includes an acute angle with a radius of the clamp, which radius is contacting the radially inner edge of the abutment surface 19. In the opened condition shown In Figures. 1 and 2 the spreading jaw 14 of the end portion 12 abuts the radially outer side of the end portion 11.

The first end portion 11 is somewhat narrower than the second end portion 12 and is passed from the inside outwardly through a peripheral slot 22 in the second end portion 12.

The spreading jaw 14 provides a corrugation 28 in the form of a halfwave portion which projects radially outwardly somewhat further than the spreading jaw 13 and whose substantially radially inwardly projecting free end portion, in a region which is radially outside the tongue 17 in the opened condition of the spring band clamp, has a hole 32 for the engagement of a tongs-like tightening tool which is brought Into engagement with the spreading jaws 13 and 14.

25 A spring ring 33 is fixed with a first portion 34 to the inside of the clamp band 10, in approximately diametrically opposite relationship to the spreading jaws 13, 14, by a procedure involving intimate joining of the materials concerned, for example by glueing or welding, in particular spot welding. The spring ring 33 has a second portion which is divided by an axially continuous slot 36.

The spring ring 33 also comprises spring steel, in this case spring steel plate, and its axial width is equal to the width of the clamp band 10, as illustrated, or narrower.

I ll I., 6 If the spring band clamp assumes Its condition of being completely unstressed or relaxed (not shown) or its condition of being partially unstressed or relaxed the tongue 17 is also disposed in the region of the peripheral slot 22. In order to move the spring band clamp against the spring force of the clamp band 10 from the completely unstressed condition (not shown) In which it is not yet disposed around the hose 1 and the plate portion 17 is between the spreading jaws 13 and 14, into the illustrated open position as shown in Figures 1 and 2, the spreading jaws 13 and 14 are pressed together in the peripheral direction by means of the tightening tongs tool fitted thereto, with expansion of the clamp, until the corrugation 28 in which terminates the peripheral slot 22 in the second end portion 12 has slid over the tongue 17. When the tongs tool is removed the spring band clamp then contracts again, until the abutment means 18 and the abutment surface 19 bear against each other, as Is shown in Figures 1 and 2. In that opened condition the spring band clamp is then pushed on to the hose 1. When that happens the spring ring 33 is spread open so that its second portion 35 elastically squeezes the hose as is illustrated in Figure 2. In that pre-fitted or initially fitted position the clamp is held on the hose in the opened condition so that the hose together with the clamp can be easily pushed on to the pipe portion (not shown), even if it has a peripherally extending holding rib behind which the clamp is intended to clamp the hose 1 fast on the pipe portion. In order then to clamp fast on the pipe portion the hose 1 which has been pushed on to the pipe portion, the spring band clamp which surrounds the hose 1 in its opened condition is moved into the closed condition. For that purpose, it Is only necessary to insert a conventional screwdriver, which is to be operated manually, with its blade in the plane of the clamp over the spreading jaw 13 and through the slot 22 under the corrugation 28 and to pivot it about the free end of the spreading jaw 13 as a pivot point in the counter-clockwise direction in Figures 1 and 2. When that is done the corrugation 28 is pressed radially outwardly to a I 1 1, 7 position over the tongue 17 so that the abutment means 18 and the abutment -surface 19 come out of contact with each other and the spring band clamp contracts firmly around the spring ring 33 and thus by way of same around the hose 1. As the spring ring 33 has a smooth radially outer and inner peripheral surface, the spring band clamp can easily contract, in which case it slides on the radially outward peripheral surface of the spring ring 33 and the spring ring 33 in turn can easily slide on the periphery of the hose 1 in order to facilitate the contraction movement of the spring band clamp. At the same time that provides for substantially uniform distribution of the tightening force which is applied by the spring band clamp over the periphery of the hose as well as a higher level of clamping force, than if the spring band clamp were to bear directly against the hose.

As a comparison between Figures 1 and 2 shows the inside diameter S* 15 of the spring ring 33 prior to the spring band clamp being fitted on the hose 1 is smaller, as illustrated in Figure 1, than the diameter of the hose and, in the initially fitted condition of the spring band clamp, as shown in Figure 2, the outside diameter of the spring ring 33 is also smaller than the inside diameter of the clamp band Figure 3 shows an example of use of the spring ring 33 in the case of a hose clamp as is known from German patent specification 'DE 42 37 330 Cl. The clamp is shown in the opened condition. The end portions lla and 12a overlap each other. The radially outward end portion 12a is .of a corrugated or wave-like configuration and is provided with a hook- 25 shaped closure portion 37 while the radially inward end portion lla is also provided with a hook-shaped closure portion 38, behind which the hook 37 can be hooked to close the clamp. A corrugation 39 of the inner end portion lla and the corrugation 40 of the outer end portion 12a serve for fitting thereto a tightening tongs tool in order to tighten and close the clamp. In regard to further details 'of the clamp attention is directed to the above-mentioned patent specification.

8 In the case of the clamp arrangement shown in Figure 3 the spring ring 33 is fixed to the inside of the clamp band 10 in approximately opposite relationship to the clamp closure in the same manner as in the case of the clamp arrangement shown in Figures 1 and 2 and also, as in the embodiment of Figures 1 and 2, serves for initially fitting the clamp on a hose.

The embodiment of Figure 4 only differs from that of Figure 3 in that the ends of the spring ring 33 engage one into the other and in that arrangement are disposed in mutually overlapping relationship in the peripheral plane of the spring ring 33 in order to provide for a transition which is as continuous as possible between the ends of the spring ring when the spring ring 33 bears against the hose and is spread open somewhat further than is illustrated in Figure 4. In that Scase a tongue 41 which prolongs the end of the spring ring 33 engages into an incision 42 in the other end of the spring ring 33.

~Figure 5 shows a clamp arrangement with a conventional worm drive clamp as is known for example from German patent specifications DE 40 05 631 C2 or DE 41 27 017 Cl. In this worm drive clamp the end portion Ilb of the clamp band 10 is fixed to the bottom of an approximately tunnel-shaped housing 43 with a lateral projection portion 44 and the other end portion 12b of the clamp band 10 is provided with rib-like thread portions 45 which are impressed into the band and is guided over the end portion llb through the housing 43 in which the thread portions 45 co-operate with the thread of a tightening e .25 screw 46 for tightening or opening the clamp. Within the clamp band a spring ring 33a is fixed in positively locking relationship with a first portion 34a to the clamp band 10. The portion 34a is provided with substantially radially outwardly bent-over edge flanges 47 and at its ends it is provided with lugs 48 which are bent around over the edges of the clamp band 10, the lugs 48 providing for the positively locking connection between the spring ring 33a and the clamp band The second portion 35 Is of the same configuration as in the case of the embodiments of Figures 1 to 3. In addition, arranged between the (I I 9 portion 34a and the clamp band 10 is a spring means 49 in the form of a corrugated leaf spring, the spring force of which acts radially. The positively locking connection of the spring ring 33a to the clamp band by the lugs 48 permits a slight degree of displacement of the first portion 34a in the peripheral direction of the clamp due to the force of the spring means 49. In this case the spring means 49 performs the same function as the spring means disclosed in German patent specifications DE 40 05 631 C2 and DE 41 27 017 Cl, more specifically it provides for re-tightening or slackening the hose clamp in the event of thermally induced variations in thickness and diameter of the hose material. In that case the spring ring 33a accordingly serves on the .00 one hand to arrest the clamp which is initially fitted on the hose in the opened condition, and on the other hand it serves for securing the spring means 49 in position.

The spring rings 33 and 33a can also be used in different kinds of hose clamps with a clamp band. In addition the spring rings 33 and 33a of Figures 1 to 3 and 5 may be provided with interengaging ends, just like the spring ring 33 shown in Figure 4.

Instead of designing the spring ring 33 in the form of a leaf spring, it can also be made from wire comprising one or more helical turns. In the illustrated embodiments the spring rings are made from spring steel 0. plate. They may however also comprise plastics material.

The embodiment of Figure 6 substantially corresponds to that shown *in Figure 4. The main difference is that the spring ring 33b carries a 25 raised edge 50, 51 at each of its two sides. The two edges are at a spacing from each other which is somewhat larger than the width of the clamp band 10 but it may also be equal to that width. The spring ring 33b is therefore disposed substantially completely within the clamp.

The spring ring 33b comprises comparatively thin spring steel plate, for example of a thickness of 0.5 mm. The edges are produced by being bent over so that a rounded configuration is afforded at the edge 52.

The spring rings 33 and 33a may also be provided with raised edges as shown in Figure 6 over their entire periphery or a substantial part of their periphery, at their sides.

Claims (10)

1. A clamp arrangement for clamping a hose fast on a pipe portion, comprising a clamp which has a clamp band (10) and a spring ring (33; 33a; 33b) which is fixed with a first portion (34; 34a) to the clamp and which elastically clamps the hose when the clamp is initially fitted on the hose but is not yet clamped fast, characterised in that at least the second portion (35) of the spring ring (33; 33a; 33b) is at least predominantly disposed within the clamp.

2. A clamp arrangement according to claim 1 characterised in that the spring ring (33; 33a; 33b) comprises spring steel.

3. A clamp arrangement according to claim 1 or claim 2 characterised in that the spring ring (33; 33a; 33b) comprises spring steel sheet.

4. A clamp arrangement according to one of claims 1 to 3 characterised in that the axial width at least of the second portion of the spring ring (33; 33a) is at most equal to the width of the clamp band A clamp arrangement according to one of claims 1 to 3 characterised in that the spring ring (33b) has edges (50, 51) which are Sraised radially outwardly, at least over a part of its peripheral length, said edges receiving the clamp band (10) between them.

6. A clamp arrangement according to claims 3 and 5 characterised in that the raised edges (50, 51) are formed by bent-over sheet portions.

7. A clamp arrangement according to one of claims 1 to 6 characterised in that the first portion (34; 34a) is connected to the clamp in positively locking relationship or by intimate joining of the materials involved. 11

8. A clamp arrangement according to one of claims 1 to 7 characterised in that the spring ring (33; 33a; 33b) is fixed to the clamp band

9. A clamp arrangement according to one of claims 1 to 6 characterised in that a radially acting spring means is arranged between the first portion (34; 34a) whose ends which are away from each other in the peripheral direction of the clamp are connected to the clamp band (10) in positively locking relationship and displaceably in the peripheral direction, and the inside of the clamp band A clamp arrangement according to one of claims 1 to 9 characterised in that the spring ring (33, 33a, 33b) has ends which are movable relative to each other in the peripheral direction.

11. A clamp arrangement according to claim 10 characterised in that the ends of the spring ring (33; 33b) overlap each other in the peripheral plane of the ring.

12. A clamp arrangement substantially as described herein with reference to Figs. 1 and 2, Figs. 3 and 4, Fig. 5 or Fig. 6 of the accompanying drawings. is Dated 2 June, 1998 Rasmussen GmbH SPatent Attorneys for the Applicant/Nominated Person SPRUSON FERGUSON >e [N:\LBLL]01694:KEH